Abstract
The influence of exchangeable cation composition on the sorption of phosphate (P) was studied using samples of an acid, clay loam subsoil which had been saturated with Ca2+ or Na+. The Na-soil always sorbed less P than the Ca-soil but the difference between the two systems was strongly pH-dependent. Sorption by the Na-soil declined rapidly as pH increased, to the extent that at pH 7-6 it was only 22% of that sorbed at pH 4-1. Although sorption by the Ca-soil also decreased with an initial pH increase, it increased again once pH exceeded approximately 5. The difference in sorption between the Ca- and Na-soils was only about 20% at low pH but it increased considerably above pH 5. At the highest comparable pH value (6-7), the Ca-soil sorbed almost 4 times as much P as the Na-soil. The observed cation-induced differences in P sorption by this soil cannot be explained simply by the formation of insoluble Ca-P compounds or surface Ca-P complexes in the Ca-saturated samples. A more plausible interpretation appears to derive from the effect of cation saturation on electrostatic potential. A model of P sorption which incorporates electrostatic potential effects indicated that the pH-dependence of the cation effect is likely to be due to a more rapid decrease in potential in the Na- than in the Ca-soil as pH is increased. However, in the absence of any measured values for potential, it is not possible to apply this model in a general way.
Original language | English |
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Pages (from-to) | 137-149 |
Number of pages | 13 |
Journal | Australian Journal of Soil Research |
Volume | 31 |
Issue number | 2 |
DOIs | |
Publication status | Published - 1993 |
Externally published | Yes |